期刊
ACS BIOMATERIALS SCIENCE & ENGINEERING
卷 9, 期 10, 页码 5804-5812出版社
AMER CHEMICAL SOC
DOI: 10.1021/acsbiomaterials.3c00996
关键词
bioprinting; support material; hydrogel; hyaluronic acid; horseradish peroxidase; phenolichydroxyl moiety
HRP-mediated extrusion bioprinting has great potential in tissue engineering. A method using alternating bioinks and support material was developed to address challenges in printing fidelity and structural integrity. The results demonstrated successful printing of tall and complex 3D constructs with high cell viability, indicating the promising application of this technique in tissue engineering.
Horseradish peroxidase (HRP)-mediated extrusion bioprinting has a significant potential in tissue engineering and regenerative medicine. However, they often face challenges in terms of printing fidelity and structural integrity when using low-viscosity inks. To address this issue, a method that alternately extrudes bioinks and support material was developed in this study. The bioinks consisting of cells, HRP, and phenolated polymers, and the support material contained hydrogen peroxide (H2O2 ). The support material not only prevented the collapse of the constructs but also supplied H2O2 to facilitate the enzymatic reaction. 3D constructs with tall and complex shapes were successfully printed from a low-viscosity ink containing 10 U/mL HRP and 1.0% w/v phenolated hyaluronic acid (HA-Ph), with a support material containing 10 mM H2O2 . Over 90% viability of mouse fibroblasts (10T1/2) was achieved following the printing process, along with a morphology and proliferation rate similar to that of nontreated cells. Furthermore, human hepatoblastoma (HepG2) cells showed an increased spheroid size over 14 days in the printed constructs. The 10T1/2 cells adhered and proliferated on the constructs printed from inks containing both phenolated gelatin and HA-Ph. These results demonstrate the great potential of this HRP-mediated extrusion bioprinting technique for tissue engineering applications.
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